Departamento de Microbiología, Campus de Rabanales, Universidad de Córdoba, E-14071 Córdoba, Spain.
Fungal Genet Biol. 2011 Feb;48(2):177-84. doi: 10.1016/j.fgb.2010.06.013. Epub 2010 Jul 3.
Debaryomyces hansenii was able to grow in a medium containing residual amounts of K(+), indicating the activity of high affinity K(+) transporters. Transcriptional regulation analysis of the genes encoding the two potassium uptake systems in D. hansenii revealed that while DhTRK1 is not regulated at transcriptional level, expression of DhHAK1 required starvation in the absence of K(+) and Na(+) and was not affected by changes in membrane potential. Rb(+) transport in cells expressing DhHAK1 was activated by external Na(+) or acidic pH and inhibited by high pH. We propose a K(+)-H(+) symporter that, under certain conditions may work as a K(+)-Na(+) transporter, as the mechanism driving K(+) influx mediated by DhHak1p.
汉逊德巴利酵母能够在含有残留钾离子(K(+))的培养基中生长,这表明其具有高亲和性钾离子转运蛋白的活性。对汉逊德巴利酵母中编码两种钾离子摄取系统的基因进行转录调控分析表明,虽然 DhTRK1 基因在转录水平上不受调控,但 DhHAK1 基因的表达需要在没有钾离子(K(+))和钠离子(Na(+))的情况下进行饥饿诱导,并且不受膜电位变化的影响。在表达 DhHAK1 的细胞中,铷(Rb(+))的运输受到外部钠离子(Na(+))或酸性 pH 值的激活,并受到高 pH 值的抑制。我们提出了一种钾离子(K(+))-氢离子(H(+))共转运蛋白,根据特定条件,该蛋白可能作为钾离子(K(+))-钠离子(Na(+))转运蛋白发挥作用,这是由 DhHak1p 介导的钾离子(K(+))内流的机制。
